Consider the following figure. (a) Find the equivalent capacitance between points a and b for the group of capacitors connected as shown in the figure above. Take C, = 2.00 µF, C, = 15.0 µF, and C, = 3.00 µF. 0.1864 Try redrawing the circuit sliding capacitors c, and C, on the left and right halves of the upper loop towards the outside so that they reside on the vertical segment of conducting wire. Note that a capacitor along a conducting wire does not affect the circuit as long as you do not pass a junction with another wire. UF (b) What charge is stored on C, if the potential difference between points a and b is 60.0 V?

Consider the following figure. (a) Find the equivalent capacitance between points a and b for the group of capacitors connected as shown in the figure above. Take C, = 2.00 µF, C, = 15.0 µF, and C, = 3.00 µF. 0.1864 Try redrawing the circuit sliding capacitors c, and C, on the left and right halves of the upper loop towards the outside so that they reside on the vertical segment of conducting wire. Note that a capacitor along a conducting wire does not affect the circuit as long as you do not pass a junction with another wire. UF (b) What charge is stored on C, if the potential difference between points a and b is 60.0 V?

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Question

CH 25 q 6

Consider the following figure.
C,
C2
(a) Find the equivalent capacitance between points a and b for the group of capacitors connected as shown in the figure above. Take C, = 2.00 µF, C, = 15.0 µF, and C, = 3.00 µF.
0.1864
Try redrawing the circuit sliding capacitors C, and C, on the left and right halves of the upper loop towards the outside so that they reside on the vertical segment of conducting wire. Note that sliding
a capacitor along a conducting wire does not affect the circuit as long as you do not pass a junction with another wire. UF
(b) What charge is stored on C, if the potential difference between points a and b is 60.0 V?

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